1.
Feasibility test of sandstone uranium ore bacteria leaching
某砂岩铀矿细菌浸铀可行性试验研究
2.
Study on the Fluorine Resistance of Thiobacillus Thiooxidans in Uranium Leaching
浸铀过程中氧化硫硫杆菌的耐氟性试验研究
3.
The Effect of Iron Precipitate on Biomembrane during the Amplification Culture of Uranium-leaching Bacteria
浸铀细菌扩大培养中铁沉淀对生物膜的影响
4.
Uranium recovery from leach solution in in-situ leaching of uranium with ion-exchange absorption
离子交换吸附回收地浸采铀浸出液中的铀
5.
Ion exchange blinding-preventing technique of in-situ uranium leaching in Qianerkuai uranium deposit
钱二块铀矿地浸采铀离子交换法防堵技术研究
6.
An Investigation of Uranium Leaching and Hydrometallurgy Process in In-Situ Blast-Leaching;
原地爆破浸出采铀中浸出和水冶工艺的研究
7.
Comparative Study of Bacteria Leaching and Acid Leaching a Uranium Ore from Guangdong by Experiment
广东某铀矿石的菌浸与酸浸对比试验研究
8.
The organics and impregnations of uranium are everywhere coextensive.
有机物和铀的浸染到处是共同延伸的。
9.
Exploration orientation of leachable sandstone type uranium deposit in Erlian basin
二连盆地可地浸砂岩型铀矿找矿方向
10.
Choice of leaching agent in acid agitation leaching of a uranium ore
某铀精矿酸法搅拌浸出氧化剂的选择
11.
APPLICATION OF ACID CURING-HEAP LEACHING-ION EXCHANGE TECHNIQUE FOR HEAP LEACHING PRODUCTION IN QUZHOU URANIUM MINE
拌酸熟化-堆浸-离子交换技术在衢州铀矿堆浸生产中的应用
12.
Compared with conventional agitation acid leaching method,this process decreases the acid consumption by 21 % and manganese dioxide by 29%,the extraction rate of uranium reduces by 1. 86%.
与搅拌浸出比较,淋滤浸出省酸21%、省二氧化锰29%,铀提取率降低1.86%。
13.
Study of the sulfuric acid leaching and bacterial leaching of low grade uranium ore by orbital shaker experiment
低品位铀矿石硫酸搅拌浸出与细菌搅拌浸出研究
14.
LEACHING CHARACTERISTICS OF A TUFF TYPE URANIUM ORE RICH IN FLUORITE
富含萤石凝灰岩类型铀矿石的浸出特性
15.
STUDY ON ORE STACKING AFTER BLASTING FOR STOPE LEACHING URANIUM
某矿体原地爆破浸出采铀筑堆方法研究
16.
Research on Core Drilling in Loose Formation from In-Situ Leaching Sand Uranium Deposit;
地浸砂岩型铀矿松散岩层取心钻进技术研究
17.
Application of Comprehensive Logging in In-situ Leaching Sandstone Type Uranium Deposits in West Yunnan Province;
综合测井在滇西地浸砂岩铀矿勘探中的应用
18.
Evaluation on Hydrogeological Conditions for In-situ Leach Mining at a Uranium Deposit in Dongbei;
东北某铀矿床地浸开采水文地质条件评价